Dynamic stiffness of ageing rubber vibration isolators
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1 Dynamic stiffness of ageing rubber vibration isolators Leif Kari
2 Structure-borne sound Source Receiver
3 Physical principle Hard Hard Soft
4 F without F with Force transmissibility T F = F with F without
5 F e Ideal isolator k m u e 0 ω 2 mu e = F e - F with F with = k u e F with k F with T F = Fwith F without 1 = ω 1 2 ω 2 0 ω 02 = k /m
6 Rigid foundation ideal isolator Force transmissibility No isolator Ideal isolator Frequency [Hz]
7 Rigid foundation ideal isolator Force transmissibility No isolator Ideal isolator Frequency [Hz] η
8 Nonrigid foundation F without F with
9 Foundation stiffness F f F f u f h f u f k f = F f / u f k f = h 2 E iω8 f 12(1 2 ) f ρ f ν f
10 Nonrigid foundation Ideal isolator Force transmissibility No isolator Nonrigid foundation Rigid foundation Frequency [Hz]
11 Acoustic radiation Wave fronts Wall 1 W/m db!
12 ideal isolator non-ideal isolator m m F ideal F in k u in uout F ideal F out
13 ideal isolator non-ideal isolator F ideal F in k u e u in uout F ideal F out F ideal = k u e F in = k inin u in + k inout u out F out = k outin u in + k outout u out with k inout = k outin
14 Constitutive preliminaries Spherical part tr =3 (,, )div Deviatoric part dev =2 (,, ) dev + (,, ; ) dev ( ) d lim t µ = µ lim t µ 1 = 0 [Kari 2016a,b]
15 Equilibrium elastic modulus,, =,, Density α= 1 ρ ρ ρ T (equlibrium) (1 α T)ρ 0 T = T T 0
16 Specific relaxation function,, ; = h( ) Non-dimensional relaxation intensity» 1 = Γ(1+β ) 0 < β 1 =10 [Kari 2016a,b]
17 Physical ageing [Cangialosi et al Soft Matter 2013]
18 Physical ageing cont
19 Modelling physical ageing = = lim t = d d = = exp = + = [Greiner & Schwarzl 1984, Kovacs 1963, Doolittle 1953, Cohen & Turnbull 1959]
20 Modelling physical ageing modified d d = D = D = 1 Γ(1 ) 1 ( ) d( ( )) d d = exp = 10 = log e = [Kari 2016a,b]
21 WLF shift function =10 = = 10 = 10 = + = = [Greiner & Schwarzl 1984, Kovacs 1963, Doolittle 1953, Cohen & Turnbull 1959]
22 Cont = = =10 = =,, ; = h( ) [Kari 2016a,b]
23 Modelling chemical ageing Scission of polymer chains, = 1 D =1 = e =1
24 Modelling chemical ageing cont Plus reformation of new polymer links, = 1 + D =1 = e =1 [Kari 2016a,b]
25 Modelling chemical ageing cont Scission and reformation of new polymer links, = + 1 [Kari 2016a,b]
26 Vibration isolator [Kari et al. 2001]
27 ideal isolator non-ideal isolator F ideal F in k u e u in uout F ideal F out F ideal = k u e F in = k inin u in + k inout u out F out = k outin u in + k outout u out with k inout = k outin
28 Modelling approaches - Wave-guides Infinite beam Traction free surface Wave equations Bessel Exp. harm. Trig. Satisfy traction free B.C:s Dispersion relation [Kari 2001a,b, Östberg et al. 2011]
29 Nonrigid foundation Real isolator Force transmissibility No isolator Real isolator Ideal isolator Ideal isolator Rigid foundation Frequency [Hz]
30 DMTA measurements and modelling [Kari et al. 2001]
31 Cont Transfer Stiffness [N/m] a) ºC ºC ºC -25ºC ºC b) Driving Point Stiffness [N/m] ºC -25ºC Frequency [Hz] 0ºC +25ºC +60ºC [Kari et al. 2001]
32 References Cangialosi, D., Boucher, V.M., Alegria, A., Colmenero, J.: Physical aging in polymers and polymer nanocomposites: recent results and open questions. Soft Matter 9, (2013) Cohen, M.H., Turnbull, D.: Molecular transport in liquids and glasses. J. Chem. Phys. 31, (1959) Doolittle, A.K.: Studies in newtonian flow. II. The dependence of the viscosity of liquids on free-space. J. Appl. Phys. 22, (1951) Greiner, R., Schwarzl, F.R.: Thermal contraction and volume relaxation of amorphous polymers. Rheol. Acta23, (1984) Kari, L.: On the waveguide modelling of dynamic stiffness of cylindrical vibraitnoso iltaors. Part I: The model, solution and experimental comparison. J. Sound. Vib. 244, (2001a) Kari, L.: On the waveguide modelling of dynamic stiffness of cylindrical vibration isolators. Part I: The dispersion relation solution, convergence analysis and comparison with simple models. J. Sound. Vib. 244, (2001b) Kari, L.: Dynamic stiffness of chemically and physically ageing rubber vibration isolators in the audible frequency range. Part 1: Constitutive equations. Continuum Mech. Thermodyn. Submitted (2016a) Kari, L.: Dynamic stiffness of chemically and physically ageing rubber vibration isolators in the audible frequency range. Part 2: Waveguide solution. Continuum Mech. Thermodyn. Submitted (2016b) Kari, L., Eriksson, P., Stenberg, B.: Dynamic stiffness of natural rubber cylinders in the audible frequency range using wave guides. Kaut. Gummi Kunstst. 54, (2001) Kovacs, A.J., Aklonis, J.J., Hutchinson, J.M., Ramos, A.R.: Isobaric volume and enthalpy recovery of glasses. II. A transparent multiparameter theory. J. Polym. Sci., Part B: Polym Phys 17, (1979) Odegard, G.M., Bandyopadhyay, A.: Physical aging of epoxy polymers and their composites. J. Polym. Sci., Part B: Polym Phys49, (2011) Östberg, M., Kari, L.: Transverse, tilting and cross-coupling stiffness of cylindrical rubber isolators in the audible frequency range the wave-guide solution. J. Sound. Vib. 330, (2011)
Dynamic stiffness of chemically and physically ageing rubber vibration isolators in the audible frequency range: Part 2 waveguide solution
Continuum Mech. Thermodyn. 7) 9:47 59 DOI.7/s6-7-573-y ORIGINAL ARTICLE Leif Kari Dynamic stiffness of chemically and physically ageing rubber vibration isolators in the audible frequency range: Part waveguide
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